Title :
Low instability, low phase-noise femtosecond optical frequency comb microwave synthesizer
Author :
Ramond, T.M. ; Bartels, A. ; Diddams, S.A. ; Hollberg, L. ; Kurz, H.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
Abstract :
The ability of a frequency comb from a femtosecond mode-locked laser to faithfully reproduce the properties of optical oscillators at microwave frequencies is examined. The fractional frequency instability of the femtosecond comb microwave synthesizer is 2×10-14/τ, and could improve by at least a factor of 10 upon elimination of excess photodetection noise. Phase-noise levels are also examined. The femtosecond comb frequency synthesizer is compared to other high-performance microwave oscillators and synthesizers and is found to be among the best available. With the realization of predicted improvements in phase-noise and stability for the femtosecond combs and optical frequency standards, the femtosecond comb could eventually synthesize the highest quality microwaves.
Keywords :
frequency standards; frequency synthesizers; laser mode locking; masers; microwave oscillators; phase noise; femtosecond mode locked laser; fractional frequency instability; microwave frequency; microwave oscillator; microwave synthesizer; optical frequency comb; optical frequency standard; optical oscillator; phase noise; photodetection noise; 1f noise; Frequency synthesizers; Laser mode locking; Laser noise; Masers; Microwave frequencies; Microwave oscillators; Optical noise; Stability; Ultrafast optics;
Conference_Titel :
Frequency Control Symposium and PDA Exhibition Jointly with the 17th European Frequency and Time Forum, 2003. Proceedings of the 2003 IEEE International
Print_ISBN :
0-7803-7688-9
DOI :
10.1109/FREQ.2003.1275082
